KR101003442B1 - Anemometer with Weathervane. - Google Patents

Abstract

The present invention is directed to a wind speed measuring device combined with a weathervane.

In the present invention, a vertical shaft on which various shaped sculptures are fixed is rotatably installed on a bearing, and a rotor is fixed at an appropriate angle to the vertical shaft to visually indicate the wind direction. Sensing means for sensing a rotational speed; A potentiometer installed under the rotating shaft to detect the wind direction by the rotational speed of the rotating body; And a control circuit unit for receiving and calculating data obtained by the sensing means and the potentiometer, outputting the LEDs and the FNDs, and transmitting the data to a computer installed at a remote location.

Weather vane, anemometer, triplex, propeller

Description

Anemometer with Weathervane.

The present invention relates to an anemometer coupled to weather vane, and more particularly, to an electromagnet, a reed switch and a potentiometer in a rotary wind vane such as a triple vane type or a propeller type in a weathervane, a classic sculpture. The present invention relates to an anemometer combined with weather vane capable of measuring wind direction and wind speed by combining modern electronic devices while maintaining a high wind appearance by installing a wind direction and wind speed measuring device.

Weathervane is used as an instrument to observe the direction of wind knowing that the change of weather is close to the direction of wind. Historically, it has been used in Europe since 1600 AD. It was derived from its use in farming, and was made of simple sculptures to visually show the direction of the wind, but after a long time, it has been changed to various models and materials and used in various shapes today.

These weather vanes are designed to rotate around the shaft on the bearings with vertical arrow blades or wind plates vertically rotated on the vertical axis. It is a standard installation method. In recent years, the sculptures, which act as wind plates, are manufactured in various animal shapes including fish or birds and attached to the top of the building to predict the weather by visualizing the direction of the wind.
Weathervane, which is currently in use, is a meteorological instrument that has been handed down since ancient times, and is still a cultural and emotional preference for many people over modern electronic devices. However, this is only a means of visually indicating the direction of the wind, it is difficult to measure the actual weather conditions, such as wind speed, and in recent years it is urgently necessary to deliver more accurate weather information due to rapidly changing weather conditions, the appropriate place in the city There is a need to install many weather data observation devices in the
Therefore, there is a demand for meteorological observation devices capable of measuring the actual weather conditions while satisfying the cultural or emotional requirements of many people without compromising the aesthetics of the city.

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 The present invention has been made to solve the above problems, an object of the present invention, by combining the components that act as anemometer to the weather vane sculptures can give a more emotional image without spoiling aesthetics or rejection It is also to provide an anemometer coupled with weather vane capable of providing accurate weather data.

The anemometer combined with the weather vane according to the present invention for solving the above problems, the fixed shaft is installed vertically; A three-fold wind cup located at the upper end of the fixed shaft; It is installed on the top of the fixed shaft, the sensing means for measuring the wind speed by detecting the rotational speed of the wind boat; A weather vane installed below the sensing means and through which the fixed shaft penetrates; It is installed on the fixed shaft, and is provided with a potentiometer for detecting the wind direction is located below the weather vane, the sensing means, the inner space is provided, the upper end of the fixed shaft is located in the inner space A rotating cap having a hemispherical shape; A bearing installed between the fixed shaft and an inner surface of the inner space; An electromagnet installed on the bearing; It is composed of a reed switch for generating a pulse in close proximity to the electromagnet, characterized in that the wind boat is fixed to the top of the rotary cap.

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The anemometer combined with the weather vane according to the present invention having the above constitutive features, by combining the electronic device capable of measuring the wind direction and wind speed to the weather vane sculpture, there is no aesthetical rejection and gives an emotional image by the sculpture By detecting the wind speed by using a wind turbine rotating by wind power without harming the beauty of the city, and by measuring the wind direction and the wind speed by using a potentiometer, it combines the advantages of mechanical and electronic to obtain accurate weather data. There is an effect that can be provided.

In addition, it minimizes problems such as freezing occurring in the conventional fixed type ultrasonic anemometer, it is possible to more easily configure complex calculations and electronic devices has the advantage of low production cost, easy installation and easy maintenance.

Features and advantages of the present invention will be more clearly understood by the embodiments described by the accompanying drawings.

Implementation of the technical idea of the present invention can be applied to both the triple structure and the propeller-type structure, the following describes an embodiment of the state applied to the triple-structure and propeller-type structure respectively.

2 to 4 show a triple wind direction wind speed gauge according to the present invention.

The illustrated triple-type anemometer 1 is provided with a weather vane 20 and three wind vessels 30 at the upper end of the fixed shaft 10 as in a conventional structure.

The fixed shaft 10 is vertically fixed to the upper portion of a structure such as a building, the weather vane 20 is rotatably installed, the bearing is installed on the upper end of the fixed shaft 10 protruding to the upper portion of the weather vane 20 Wind wave 30 is rotatably supported by 40.

The weather vane 20 is rotatably fixed to the fixed shaft 10 and detects that the potentiometer P is fixed to the lower end of the fixed shaft 10 in accordance with the direction and speed of the wind to measure the wind speed to the electronic circuit. Calculates temperature, humidity, barometric pressure, and the like.

The weather vane 20 is designed to improve the aesthetics of the city while acting as a windshield that is rotated by wind power, but is manufactured in the shape of a whale, but may be manufactured in various shapes including other animals such as fish and birds.

The wind boat 30 is installed on the upper end of the fixed shaft 10, and is attached to the upper portion of the sensing means for measuring the wind speed by detecting the rotational speed of the wind boat. The sensing means has a rotating cap 50, a bearing 40, a reed switch 60 and an electromagnet 70, the rotating cap 50 is provided with an inner space 500, the inner space 500 The upper end of the fixed shaft 10 is positioned and the upper part is hemispherical, and is fixed radially at an angle of 120 degrees to the upper part of the rotating cap 50 that is rotatably fixed to the bearing 40. Measure the wind speed by using the principle that the rotation speed of) is proportional to the wind speed.

The bearing 40 has a structure of a thrust bearing so that the bearing 40 is vertically rotatably installed between the fixed shaft 10 and the inner surface of the inner space 500 so that the wind shaft 30 in the fixed shaft 10 has a horizontal circumferential direction. It is possible to rotate.

At the upper end of the fixed shaft 10, one reed switch 60 for measuring the wind speed by the rotation of the wind boat 30 is provided.

Rotating cap 50 has a spherical upper half is formed so that the air resistance is minimized, the inner space 500 for accommodating the upper portion of the fixed shaft 10 and the bearing 40, the reed switch 60 is formed is formed The inner circumferential surface of the inner space 500 has a fixing groove 501 in which the electromagnet 70 is fixed and installed close to the position opposite to the reed switch 60.

The three-fold structure configured as described above has the rotation cap 50 having the wind cup 30 fixed thereto to be rotatably installed on the fixed shaft 10 as the bearing 40, and the rotation speed is proportional to the wind speed. The wind speed is measured by using a principle, which is electromagnetically fixed when the electromagnet 70 fixed to the inner circumferential surface of the rotating cap 50 passes through the reed switch 60 fixed to the upper end of the fixed shaft 10 at every rotation. A pulse is generated according to the number of times of response, thereby obtaining a rotation speed for a predetermined time.

The potentiometer (P) is installed on the fixed shaft (10) and measures the wind direction in the potentiometer (P) by the weather vane (20) rotated by the wind, it is detected by the electronic circuit according to the direction and speed of the wind. It calculates wind speed, calculates temperature, humidity and air pressure, displays measured data by means of FND, LED, etc., and transmits it to a remote computer through RS-232 communication.

5 shows a propeller type anemometer according to the present invention.

Referring to this figure, the illustrated propeller type 1a is provided with a weather vane 20a at the upper end of the fixed shaft 10a as in a normal structure.

The fixed shaft 10a is vertically fixed to an upper portion of a structure such as a building, and the weather vane 20a is rotatably installed, and the propeller shaft 50a is rotatably fixed to the weather vane 20a horizontally. 30a is rotatably provided.

The weather vane 20a is rotatably fixed to the fixed shaft 10a and senses the wind speed in the potentiometer Pa fixed to the lower end of the fixed shaft 10a according to the direction and speed of the wind to measure the wind speed. Calculates the temperature, humidity, and air pressure.

The weather vane 20a serves to improve the aesthetics of the city while acting as a windshield that is rotated by wind power, but may be manufactured in a propeller shape.

The propeller 30a is rotatably fixed to the bearing 40a at the tip of the propeller shaft 50a so that the wind speed can be measured using the principle that the rotational speed of the propeller 30a is proportional to the wind speed.

One reed switch 60a for measuring the wind speed by the rotation of the propeller 30a is provided at the upper end of the fixed shaft 10a.

An electromagnet 70a is fixed to one end of the propeller shaft 50a at a position opposite to the reed switch 60a.

In this embodiment of the propeller type is a pulse signal received by the reed switch (60a) is fixed to the upper end of the fixed shaft (10a) of the electromagnet 70a attached to the end of the propeller shaft (50a) every rotation Find the number of revolutions per hour in the electronic circuit to find the wind speed per second and minute.

In addition, the wind direction calculates information in 8 ~ 32 directions from the electronic circuit that receives data obtained from the potentiometer (Pa) connected to the lower rotating shaft, and calculates the weather data such as wind speed, wind direction, temperature, and humidity by FND, LED, etc. Displayed by means of the display means, and transmitted to the remote computer via RS-232 communication.

In the above embodiment, the three-fold windshield is formed on top of the whale to form a whale bearing water, and the propeller-type impeller is formed on the tip of a sculpture that is made of algae to form a form of a bird biting leaves to express an aesthetic sense. This will give you an old-fashioned and emotional image.

1 is a perspective view showing an example of a conventional weather vane

Figure 2 is a perspective view showing an embodiment of the three-fold type to which the present invention is applied

Figure 3 is a cross-sectional view showing the internal structure of the triple type to which the present invention is applied

4 is an enlarged cross-sectional view of an essential part of a triple structure of the present invention;

Figure 5 is a cross-sectional view showing an embodiment of the propeller type to which the present invention is applied

6 is a block diagram of the present invention.

Claims (4)

A fixed shaft installed vertically; A three-fold wind cup located at the upper end of the fixed shaft; It is installed on the top of the fixed shaft, the sensing means for measuring the wind speed by detecting the rotational speed of the wind boat; A weather vane installed below the sensing means and through which the fixed shaft penetrates; A potentiometer installed on the fixed shaft and positioned below the weather vane to detect a wind direction; It is configured with The sensing means, An inner space is provided, the upper end of the fixed shaft is located in the inner space and the top is a hemisphere (半球) rotating cap; A bearing installed between the fixed shaft and an inner surface of the inner space; An electromagnet installed on the bearing; A reed switch installed in proximity to the electromagnet to generate a pulse; Consists of the wind vane coupled to the weather vane, characterized in that the wind is fixed to the top of the rotating cap. delete delete delete

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